DE1950787A1 - Biological sewage purification plant - Google Patents

Abstract

Plant comprises one or more aeration chambers each constructed of a spiral pipe coil and interconnected by pipes. Layout permits deeper tanks, economising in land use and permitting easier construction than for conventional sludge digestion plant.

Description

Device for biological wastewater treatment, for biological wastewater treatment have mostly been flat basins for aeration of the sewage-activated sludge mixture which are equipped with either surface or compressed air aerators Arrangement results in a high demand for land, but it also arises a high ESergietedcarf, since the ventilation and the movement drive of the to be cleaned Sewage cannot be separated from each other.

Furthermore, there is a space-saving and economical block construction After all, the B3B5 volume loads are very low and the oxygen load In addition, when the multi-level principle is used, the building construction difficult; For small wastewater treatment plants, the appropriate ready-to-use product is available in the manufacturer's works no longer feasible, so that the construction is more expensive, mainly on the construction site must be carried out.

According to the invention, these disadvantages can be avoided by designing the ventilation space in the shape of a pipe-clip length. The length of the pipe coils is calculated from the equation: The ventilation space and thus the length and the diameter of the pipe parts rising and falling vertically in sections depend on the water throughput and the concentration of the wastewater. The diameter of the pipes determines the high linear speed of the flowing sewage-activated sludge mixture, which is aerated separately in each ascending and descending section. The high flow speed causes considerable turbulence, which is conveyed through the iijinbdu of thinner pipes. The sewage and compressed air supply is optionally arranged for the pipe sections on the edge under the ring-shaped partition wall attached to the periphery. The emulsion consisting of the waste water, the activated sludge and the air increases by the respective pipe section as it rises and then flees downwards with mixing in the middle of the respective pipe section. I) the ascending peripheral liquid flow will only interconnect at half the height of each pipe section, then expand and descend in the middle in the circuit With small diameters of the pipes, the ring-shaped partition can be omitted, or it is also possible to use a large-area ventilation system and allow the emulsion to descend between the ring-shaped partition and the container wall, i.e. to reverse the circuit in both cases homogeneous and the company sizes constant.

That which emerges from the last reactor pipe section is fully biological Treated wastewater is fed into a likewise tubular ventilation space, in where the stabilization and regeneration of the sludge takes place carries the same constructive features as the pipe sections to the biological BOD5 degradation is either with a secondary clarifier through one above the sole of the pipe section circumferential connection slot or connected to a separate secondary clarification tank connected.

Exemplary embodiment: The device is for a small wastewater treatment plant with a connection value of 2,000 inhabitants f70 g BOD5 / d) are made of plastic or metal. The pipe length is 27 m with a pipe diameter of 1 m, corresponding to a total space of 20 m3, and is in six pipe sections each with a height of 4.5 m and a capacity of 3.4 m3, which are connected to one another Pipelines with a diameter of 0.3 m are connected, divided into pipe sections (1 to 6) with the pipe connections (7 to 11) is the pipe section (12) as Sludge stabilization and regeneration tank connected through the pipeline (13) is in communication with the pipe section (6) 0 in all reactors the annular septum (14) is arranged, which circulates the sewage-activated sludge-air emulsion conditionally, it only extends up to half the height of each pipe section Ventilation duct made of plastic or metal with holes between 2 and 5 mm is at the bottom of the pipe sections between the wall of the pipes and the ring-shaped partition 15) 0The tangential sewage inflow is above the compressed air supply (15) is provided in pipe section (1) through the pipe (16) Rohrabscliti (12) is constructed in the same way and with the same devices provided like the pipe sections 1-6; but it is taken from the conical secondary clarification tank (17) surrounded, the section with the pipe (12) through the Verbndgsschlitz (18) in connection vera um this connection slot stands the pipe section (12) on the sole in this The pipeline (19) is installed at the height, with the interposition of the pump (20) the regenerated return sludge leads to the pipe sections 1-6, the distribution is made through the valves (21). The pipe (22) is at about the same height intended to remove the stabilized excess sludge. Located on the circumference of the cone the height-adjustable overflow weir (23) through which the treated wastewater flows off.

The pipe connections (7), (9) and (11) can be connected to the sludge catchers (24) are provided, of which the mud through the pipes attached to their bottom (25), which are connected to the bottom of the pipe sections, is returned.

Instead of the conical final clarification tank (17), the pipe section (12) an ordinary sedimentation basin similar to the well-known Dortmund basin with a control shaft and sludge thickener can be connected.

The pipe sections are set up in the form of a block and together supported by a wide clamp, which is braced with wire ropes, so that on smallest footprint a large clarification capacity is accommodated.

A slight gradient of a few millimeters is formed in the pipe coil per section, as a backflow cannot occur.

The return line for the sludge can also be located under the pipe sections be pulled so that the between the wall of the tubes and the annular septum resulting suction supports the sludge pumping.

The pipe section (12) can also be equipped with a small agitator Separation of ventilation and kinetic energy can be set up.

Claims (12)

Claims. Device for biological waste water purification, characterized in that the ventilation space from the serpentine pipe cuts (1,2,3,4,5 and 6) connected to each other by the pipes (7,8,9,10, and 11) in Connected. 2. Apparatus according to claim 1, characterized in that in the tubular Sections (1,2,3,4,5 and 6) the cylindrical septum (14) up to half the height of the pipe sections is arranged. 3. Apparatus according to claim 1, characterized in that the serpentine roll-shaped Ventilation space is formed from any number of pipe sections. 4. Device according to claims 1 to 3, characterized gekennzeichneu'daß the pipe sections (1,2, etc.) with the ring ventilation (15) or with extensive Compressed air ventilation are provided. 5. Apparatus according to claim 1, characterized in that the pipe sections (1,2 etc.) through the pipe (13) with the pipe section (12) for stabilization of the bberschußschlam mes and are connected to the regeneration of the return sludge. 6. Apparatus according to claim 5, characterized in that the Rohräbs'chnti (12) with the cylindrical partition (14) up to half the height of the pipe section is provided. 7. Device according to claims 5 and 6, characterized in that a conical secondary clarification tank (17) is arranged around the pipe section (12), which through the connecting slot (18) with the pipe section (12) in communicating Connection. 8. Device according to claims 5,6 and 7, characterized in that the pipe section is provided with an annular or planar ventilation system is, wherein the annular ventilation system between the wall of the pipe section (12) and the cylindrical septum (14) is attached in the vicinity of the sole. 9. Device according to claims 5,6,7 and 8, characterized that at the upper edge of the secondary clarification tank (17) a height-adjustable overflow weir (23) is arranged. 10. Device according to claims 5,6,7,8 and 9, characterized in that the pipe (19) at the foot of the secondary clarification tank (17) at the level of the connecting slot (18) branches off, which is connected to the pump (20) and via the valves (21) into the Pipe sections 1,2,3,4,5 and 6 ends. 11. Device according to claims 5,6,7,8, and IO, characterized in that that at the foot of the clarifying tank (17) the pipeline (22) for removing the waste sludge branches off. 12. The device according to claim 5, characterized in that a stirrer is arranged in the middle of the pipe section (12). L e r s e i t e